Junseok Oh scite author profile

Junseok Oh

5Publications

24Citation Statements Received

93Citation Statements Given

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Changwon National University

Publications

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Effect of Dendrite Fraction on the M23C6 Precipitation Behavior and the Mechanical Properties of High Cr White Irons

Song

Choi

et al. 2021

Metals

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High Cr white irons with various fractions of primary dendrite have been prepared through the modification of their chemical composition. Increasing C and Cr contents decreased the primary dendrite fraction. Eutectic solidification occurred with the phase fraction ratio of austenite: M7C3 = 2.76:1. The measured primary dendrite fractions were similar to the calculated results. ThermoCalc calculation successfully predicted fractions of M7C3, austenite, and M23C6. Conventional heat treatment at high temperature caused a destabilization of austenite, releasing it’s solute elements to form M23C6 carbide. Precipitation of M23C6 during destabilization preferentially occurred within primary (austenite) dendrite, however, the precipitation scarcely occurred within austenite in eutectic phase. Thus, M23C6 precipitation by destabilization was relatively easy in alloys with a high fraction of primary dendrite.

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Effects of Primarily Solidified Dendrite and Thermal Treatments on the M23C6 Precipitation Behavior of High-Chromium White Iron

Song

Choi

et al. 2021

Metals

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The precipitation behavior of M23C6 carbide during thermal treatment of high-Cr white iron with various fractions of primarily solidified dendrite was studied and reviewed. M23C6 precipitation in the primarily solidified dendrite occurred preferentially during conventional heat treatment, whereas it occurred scarcely in the eutectic austenite. The reaction between M7C3 and austenite caused the dissolution of M7C3 into austenite, followed by precipitation of M23C6 along the periphery of eutectic M7C3. Relatively low-temperature thermal treatment (modified heat treatment) led to precipitation of M23C6 particles in the eutectic austenite, which is presumed to be caused by solubility difference depending on temperature.

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Preferential dissolution behaviour of the austenite phase in Fe–27Cr–xC high chromium cast iron

Lee

Rho

et al. 2023

RSC Adv.

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Effect of carbon addition on the passivity of hypoeutectic high chromium cast irons

Lee

et al. 2023

RSC Adv.

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Effect of Carbon Addition on the Passive Behaviour of Hypoeutectic High Chromium Cast Irons

Lee

et al. 2022

SSRN Journal

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Junseok Oh

Effect of Dendrite Fraction on the M23C6 Precipitation Behavior and the Mechanical Properties of High Cr White Irons

Effects of Primarily Solidified Dendrite and Thermal Treatments on the M23C6 Precipitation Behavior of High-Chromium White Iron

Preferential dissolution behaviour of the austenite phase in Fe–27Cr–xC high chromium cast iron

Effect of carbon addition on the passivity of hypoeutectic high chromium cast irons

Effect of Carbon Addition on the Passive Behaviour of Hypoeutectic High Chromium Cast Irons

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